chapter 2 the chemical context of life. comment u much of this chapter should be review from a basic...

Chapter 2The Chemical Context

of Life

Comment

Much of this chapter should be review from a basic chemistry course. Much of the material is unlikely to be brand new.

Matter Anything that has mass and

occupies space.

Atoms

Smallest particle of elements.

Element

Matter made up of only one type of atom.

92 natural elements. Each element has a symbol.

Compound

Elements combined in fixed ratios.

A compound has characteristics beyond those of its combined elements.

Question?

What Elements are necessary For Life?

Life requires about 25 chemical elements.

Macroelements

Elements needed in large amounts or quantities.

Examples:

C HOPKNS CaFe Mg NaCl

Control Minus Nitrogen

Microelements

Elements needed in very small quantities.

Also known as Trace Elements.

Examples:

Cu, Co, Zn, Mo, I, Mn

Goiter – minus Iodine

Atomic Number

The number of protons in the nucleus.

Each element has its own atomic number. If you change the atomic number, you no longer have the same element.

Atomic Mass

The number of protons and neutrons in the nucleus.

The atomic mass can change.

Atomic Model

Isotopes

Atoms of the same (iso-) element with different atomic mass.

Caused by changes in the number of neutrons.

Used as “tracers”.

Types of Isotopes

1. Radioactive- where the nucleus decays

spontaneously, giving off particles and energy.

2. Heavy- has a stable nucleus, but masses

more than the standard isotope for the element.

Energy

The ability to do work.

Potential Energy

Is the energy that matter stores because of its position or location.

Electrons have potential energy because of their position relative to the nucleus.

Electron Energy Levels Energy levels around the

nucleus of an atom. 1st level can have 2 electrons

and has the lowest potential energy.

Other levels can hold more than 2 electrons and have higher energy levels.

Electron Orbitals

The three dimensional space where an electron is found 90% of the time.

Different orbitals have different shapes.

Each orbital can hold only 2 electrons.

Electron Orbitals

Chemical Behavior Of An Atom

Is determined by its electron configuration in the energy levels and orbitals.

Valence Electrons

The electrons in the outermost energy level.

Electrons available chemical bonds.

Octet Rule The most stable condition is to

have an outer level of 8 electrons.

Exception - 1st level is stable with only 2 electrons.

When stable - no chemical reactions will take place. Ex: Ne, He, (Noble gases)

Electrons of the first elements

Chemical Bonds

Forces that join atoms together to form molecules.

Usually caused by sharing or transferring valence electrons.

Bond Formation Depends On:

The number of valence electrons that must be gained, lost, or shared to reach the stable condition.

Chemical Bond Types

Nonpolar Covalent Polar Covalent Ionic Hydrogen

Nonpolar Covalent

When electrons are shared equally between atoms.

Very strong bond. Important in many molecules

found in living things. Ex: carbon to hydrogen

Nonpolar Covalent

Can be single, double, or triple between two atoms.

Each nonpolar covalent bond involves a pair of electrons.

Polar Covalent

When electrons are shared unequally between atoms.

Results in “polar” molecules that have charged areas. Ex: Water, H to O bonds

Ionic Bonds

Formed when electrons are transferred from one atom to another and ions are formed.

Types of Ions

Cations - have lost electrons (p+ > e-) giving them a positive charge.

Anions - have gained electrons (p+ < e-) giving them a negative charge.

Ionic Bonds

Formed when cations and anions attract each other.

Weak chemical bond.

Ionic Bonds

Hydrogen Bonds When a hydrogen atom

bonded to one molecule is attracted to the slightly negative area (often N or O) of another molecule.

Very weak individual bond. Can be a “strong” force if

there are many H bonds.

Hydrogen Bonds

Molecular Shape

Determined by the positions of the atom’s orbitals.

Molecular shape is crucial in Biology because it determines how most molecules of life recognize and respond to one another.

Chemical Reactions

The making and breaking of chemical bonds.

Reactions do not destroy matter, they only rearrange it.

Parts of the Equation2 H2 + O2 2 H2O

Reactants: - the starting materials. Products: - the ending materials. Note - all atoms of the reactants

must be accounted for in the products.

Chemical Equilibrium

When the conversion of reactants to products is balanced to the reverse reaction.

Ex:

3 H2 + N2 2 NH3

Summary

Element vs compound Macro and micro elements Atomic Number and Mass Isotopes Valence electrons Chemical Bonds

Summary

We will now put elements together to form molecules and build the next level in the hierarchy.